1. THE LYMPHATIC SYSTEM

2. LYMPHATIC SYSTEM
The body has a second transportation system, which consists of a network of lymphatic vessels and lymphoid organs. Called the lymphatic system, it has two major functions. First, it ensures that blood volume stay the same. Each day, some 51 pints (24 liters) of fluid leave the blood as it passes through the tissues. Most returns to capillaries, but some 6-8 pints (3-4 liters) remains.

3. This surplus, now called lymph, drains into lymphatic vessels and is emptied back into the bloodstream. Second it plays a major part in body defense. It contains cells, also found in the blood, called lymphocytes and macrophages, which form the immune system the body’s most powerful defense against disease.

5. Functions & Structures
THE LYMPHATIC SYSTEM
Functions & Structures
LYMPH – fluid that goes between capillary blood and tissues.
LYMPH VESSELS – transport excess tissue fluid back into circulatory system.

6. LYMPH NODES – produce lymphocytes, filter out harmful bacteria.
SPLEEN – produces lymphocytes and monocytes, blood reservoir, recycles old red cells.
Thymus gland –
produces T-LYMPHOCYTES

8. LYMPH Straw-colored fluid (similar to plasma)
INTERSTITIAL FLUID or tissue fluid because it is in the spaces between cells
Composed of H2O, lymphocytes, some granulocytes, O2, digested nutrients, hormones, salts, CO2 and urea.
NO red blood cells or protein molecules (too large)

9. Carries digested food, O2 and hormones to cells
Carries wastes back to capillaries for excretion
Since the lymphatic system has no pump, skeletal muscle action squeezes lymph along
Valves prevent backward flow

10. LYMPH VESSELS Closely parallel veins
Located in almost all tissues and organs that have blood vessels
Tissue lymph enters small lymph vessels which drain into larger vessels called lymphatics – they flow into one of two large, main lymphatics – the THORACIC DUCT and right lymphatic duct.

12. LYMPH CAPILLARIES
The smallest vessels in the lymphatic system, lymph capillaries form a branching network of dead-end tubes that, like blood capillaries, pass between tissue cells. The thin walls of the lymph capillaries have tiny flaps that act like one-way swinging doors letting in excess tissue fluid – which has passed out of, but not returned to, blood capillaries – but not allowing it to flow back out into the tissues. This clear, watery fluid, now called lymph, is carried onward into the larger lymphatic vessels

14. THORACIC DUCT
gets lymph from left side of chest, head and neck, abdominal area and lower limbs  left subclavian vein  superior vena cava  heart.
Lymph flows only in one direction – from body organs to the heart.

16. LYMPH NODES Tiny, oval shaped - size of pinhead to size of almond
Located alone or grouped
Site for lymph production and filter for screening out harmful substances
If substance can’t be destroyed, node becomes inflamed

17. LYMPH NODES
Occur along lymph vessels like beads on a string. Lymph nodes filter lymph as it passes through them. Surrounded by a tough capsule, the spaces, or network of fibers that support macrophages and lymphocytes. These fibers slow the flow of lymph passing through while macrophages engulf and destroy bacteria, cancer cells, and debris, and lymphocytes launch their immune defenses. During infections, lymph nodes may swell up and become tender, a condition known as “swollen glands”

19. TONSILS
Masses of lymphatic tissue that produce lymphocytes and filter bacteria – they get smaller in size as person gets older
(palatine, lingual)
ADENOIDS – tonsils on upper part of the throat (pharyngeal)

20. TONSILS
A ring of five tonsils (2 at the back of mouth, 2 at the back of tongue, & one in the upper throat) protect the entrance to the digestive & respiratory systems from bacteria carried in food and air. Bacteria migrate into the tonsils where they are trapped inside deep “crypts” & destroyed by lymphoctyes.

21. SPLEEN Sac-like mass of lymphatic tissue
Upper left abdominal cavity, just below diaphragm
Forms lymphocytes and monocytes
Filters blood
Stores large amounts of RBCs – contracts during vigorous exercise or loss of blood, to release RBCs
Destroys or removes old or fragile RBCs

23. THYMUS GLAND Upper, anterior thorax, above the heart
Thymus is also considered an endocrine gland
Begins to shrink at puberty

24. The two lobed thymus gland carries out its most important functions in the early years of life. It trains lymphoctyes to be effective as part of the body’s immune system. Unspecialized lymphocytes arrive in the blood from bone marrow. They mature in the thymus, becoming capable of attacking specific pathogen, then leave as T-cells (thymus-dependent) to be sent to lymphoid organs, blood and lymph

25. Immunity
– the body’s ability to resist bacterial invasion and disease.
Two general types – natural and acquired.

26. NATURAL IMMUNITY – at birth, inherited and permanent. Includes:
Unbroken skin- sweat together with sebum produced by sebaceous glands, protects the skin. Both substances have antiseptic properties
Mucus and tears – tears produced by glands in the eyelids wash away dirt & contain an antiseptic substance

27. Blood phagocytes – WBC that engulf & destroy invading organisms
Blood phagocytes – WBC that engulf & destroy invading organisms. Two types: neutrophils & macrophages. Neutrophils circulate in the blood before being transferred to the tissues, where they seek out organisms. Macrophages also start in the bloodstream, where they are known as monocytes, before moving to the tissues where they become macrophages. Some macrophages stay in one place; others travel around looking for invading organisms. All phagocytes flow around organisms, wrapping them within a membrane that fuses with granules called lysosomes. These granules contain strong chemicals that digest the organisms, producing harmless substances that pass out through the cells’ membrane.

28. LOCAL INFLAMMATION
This is the familiar warm, reddish, tender swelling that appears after an injury. At the site of the damage, tissue cells release histamine & other chemicals. They make the blood vessels wider, so that extra blood arrives, and more leaky, so that fluid passes into the tissues, aiding repair and making the area, swollen, and warm. These chemicals also attract phagocytes that destroy pathogens.

30. ACQUIRED IMMUNITY – body’s reaction to invaders
TWO TYPES: Passive acquired or active acquired

31. PASSIVE ACQUIRED IMMUNITY
Acquired artificially by injecting antibodies to protect from a specific disease
Immediate immunity
Lasts 3-5 weeks
Used when someone exposed to measles, tetanus, infectious hepatitis
Mother provides newborn with some passive immunity

32. ACTIVE ACQUIRED IMMUNITY
*Lasts longer, two types
NATURAL ACQUIRED IMMUNITY – result of having had and recovered from a disease. For example, a child who had measles will usually not get it again – child’s body has manufactured antibodies.

33. ARTIFICIAL ACQUIRED IMMUNITY – comes from being inoculated with a suitable vaccine, antigen or toxoid. (a child vaccinated for measles has been given a very mild form of the disease; the child’s body will thus be stimulated to manufacture its own antibodies.

34. IMMUNIZATION
– artificial resistance to a particular infection by artificial means
Antigen injected into a person to stimulate production of antibodies

35. Disorders of the Lymphatic System
ADENITIS – swelling in the lymph glands
TONSILLITIS
In childhood, they may become infected, enlarged, and cause difficulty swallowing
Surgery done in extreme cases

36. LYMPHADENITIS – enlargement of the lymph nodes, occurs when infection is present and body is attempting to fight off the infection.

37. HODGKIN’S DISEASE
– cancer of the lymph nodes, painless swelling of lymph nodes is early symptom. Rx – chemotherapy and radiation

38. INFECTIOUS MONONUCLEOSIS
Caused by virus
Frequently in young adults and children
Spread by oral contact (kissing)
Symptoms – enlarged lymph nodes, fever, physical and mental fatigue,  leukocytes
Rx – bedrest

40. HYPERSENSITIVITY
When the body’s immune system fails to protect itself against foreign material, and instead, the antibodies formed irritate certain body cells.
An abnormal response to a drug or allergen.

41. ALLERGEN an antigen that causes allergic responses.
(Examples of allergens – ragweed, penicillin, bee stings, foods, etc.)

42. ANAPHYLAXIS severe, sometimes fatal allergic reaction
Antigen-antibody reaction stimulates a massive secretion of histamine
Symptoms – breathing problems, headache, facial swelling, falling blood pressure, stomach cramps, and vomiting
Tx: Adrenaline

44. AIDS/HIV Acquired Immunodeficiency Syndrome
Caused by HTLV-III (human T-lymphotrophic virus type III) Commonly caused HIV or Human immunodeficiency virus.
Affects not only homosexual males but all populations
The patient with AIDS cannot fight off cancers and most infections.

45. Three responses to HIV infection
AIDS
ARC (AIDS-related complex)
Asymptomatic infection
Screening tests for HIV/AIDS are available

46. AIDS Most severe type of HIV infection
Subject to OPPORTUNISTIC INFECTIONS – a healthy person would fight off these infections, but a person with AIDS has a compromised immune response.

47. Symptoms of AIDS Prolonged fatigue Persistent fevers or night sweats
Persistent, unexplained cough
Thick coating in throat or on tongue
Easy bruising, unexplained bleeding

48. Appearance of purple lesions on mucous membranes or skin that don’t go away
Chronic diarrhea
Shortness of breath
Unexplained lymphadenopathy
Unexplained weight loss, 10 pounds or more, in less than 2 months
Incubation period: 1 month to12 years

49. AIDS-RELATED COMPLEX (ARC)
Has HIV but not AIDS and develops other conditions such as:
Chronic diarrhea
Chronic lymphadenopathy
Unexplained weight loss
If life threatening opportunistic infections develop, then individual is said to have AIDS

51. ASYMPTOMATIC INFECTION - has HIV but no symptoms
HIGH RISK GROUP FOR AIDS – EVERYONE who participates in risky behaviors

52. Transmission by: Sex with someone who is HIV positive
Sharing needles with infected IV drug users
At birth from infected mother

53. Cannot be spread by: Casual contact
Through air, feces, food, urine or water
Coughing, sneezing, embracing, shaking hands and sharing eating utensils

54. Prevention:
Avoid risky behaviors
Standard precautions

55. STANDARD PRECAUTIONS Guidelines to be used in patient care setting
Must be used when there is contact with blood, any body fluid (except sweat), mucous membranes and non-intact skin.
Handwashing – the single most effective way to prevent infection.

56. HANDWASHING
Wash hands after touching body fluids, even if gloves are worn.
Wash hands immediately after removing gloves, between patient contacts.
Use a plain (non-antimicrobial) soap
Wash for a minimum of 10 seconds

57. Gloves – worn when touching blood, body fluids, etc.
Mask, eye protection, face shield and gown – during patient care activities that may generate splashes or sprays of blood, body fluids, etc.
Patient care equipment and linens – handle with care, don’t let it touch your or clothing, clean or discard appropriately.

58. Occupational Health and Bloodbourne Pathogens
Beware of needles!
Never recap used needles.
Dispose of all needles and sharp objects in a
Sharps container.
Use mouthpieces, resuscitation bags, or other ventilation devices as alternative to mouth-to-mouth resuscitation.
A patient who contaminates the environment should be in a private room or relatively isolated area.

59. The AIDS Patient Sometimes treated as outcasts
Healthcare worker should be supportive
Use of gloves for normal patient contact is not necessary